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Course Criteria
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3.00 Credits
Introduction to laboratory testing methods in soil mechanics. Classification, permeability, compressibility, shear strength. Prerequisite: EGGN361 or concurrent enrollment. 3 hours lab; 1 semester hour.
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3.00 Credits
Definitions, properties, temperature, phase diagrams, equations of state, steam tables, gas tables, work, heat, first and second laws of thermodynamics, entropy, ideal gas, phase changes, availability, reciprocating engines, air standard cycles, vapor cycles. Prerequisite: MATH213/223. 3 hours lecture; 3 semester hours.
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3.00 Credits
This course provides the theoretical fundamentals to understand and analyze complex electric circuits with the required mathematical tools. The key covered topics are: (i) Applications of linearity, superposition, Thèvenin and Norton equivalent circuits, mesh and nodal analysis for complex electrical networks, (ii) Sinusoidal steady state analysis, (iii) Application of computer aided analysis for electrical networks, (iv) AC power circuit analysis, (v) Fourier series for analysis of ac circuits, (vi) Laplace transform for transient analysis of electric circuits, (vii) Frequency response, poles, zeros, transfer function, Bode plots and filter design, (viii) Ideal and non-ideal operational amplifiers and (ix) ideal transformer. Prerequisites: DCGN 381 or consent of instructor. 3 hours lecture; 3 semester hours.
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3.00 Credits
Fundamentals of digital logic design. Covers combinational and sequential logic circuits, programmable logic devices, hardware description languages, and computer-aided design (CAD) tools. Laboratory component introduces simulation and synthesis software and hands-on hardware design. Prerequisites: DCGN381 or PHGN215. 3 hours lecture; 3 hours lab; 4 semester hours.
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3.00 Credits
Semiconductor materials and characteristics, junction diode operation, bipolar junction transistors, field effect transistors, biasing techniques, four layer devices, amplifier and power supply design, laboratory study of semiconductor circuit characteristics. Prerequisite: EGGN 382 or PHGN215. 3 hours lecture; 3 hours lab; 4 semester hours.
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3.00 Credits
This course provides an introduction to electromagnetic theory as applied to electrical engineering problems in wireless communications, transmission lines, and high-frequency circuit design. The theory and applications are based on Maxwell's equations, which describe the electric and magnetic force-fields, the interplay between them, and how they transport energy. Matlab and PSPICE will be used in homework assignments, to perform simulations of electromagnetic interference, electromagnetic energy propagation along transmission lines on printed circuit boards, and antenna radiation patterns. Prerequisites: EGGN382, MATH348 and/or consent of instructor. 3 hours lecture; 3 semester hours.
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3.00 Credits
The interpretation, representation and analysis of timevarying phenomena as signals which convey information and noise; applications are drawn from filtering, audio and image processing, and communications. Topics include convolution, Fourier series and transforms, sampling and discretetime processing of continuous-time signals, modulation, and z-transforms. Prerequisite: DCGN381 or PHGN215 and MATH225. Corequisite: MATH348. 3 hours lecture; 3 semester hours.
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3.00 Credits
This course provides an engineering science analysis of electrical machines. The following topics are included: DC, single-phase and three-phase AC circuit analysis, magnetic circuit concepts and materials, transformer analysis and operation, steady-state and dynamic analysis of rotating machines, synchronous and poly-phase induction motors, and laboratory study of external characteristics of machines and transformers. Prerequisite: EGGN382 or PHGN215. 3 hours lecture; 3 hours lab; 4 semester hours.
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3.00 Credits
This course focuses on available engineering materials and the manufacturing processes used in their conversion into a product or structure as critical considerations in design. Properties, characteristics, typical selection criteria, and applications are reviewed for ferrous and nonferrous metals, plastics and composites. The nature, features, and economics of basic shaping operations are addressed with regard to their limitations and applications and the types of processing equipment available. Related technology such as measurement and inspection procedures, numerical control systems and automated operations are introduced throughout the course. Prerequisite: EGGN320, SYGN202. 3 hours lecture; 3 semester hours.
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3.00 Credits
Pilot course or special topics course. Topics chosen from special interests of instructor(s) and student(s). Usually the course is offered only once. Prerequisite: Instructor consent. Variable credit; 1 to 6 credit hours. Repeatable for credit under different titles.
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